The Ninebot By Segway ES2 scooter is a solidly designed transportation solution for those who live in urban locations or drivers who are looking for a way to streamline the last mile of their commute. Featuring a maximum speed of 15.5mph, the scooter will take riders up to 15.5 miles per charge of the electric battery. This makes it ideal for short-distance commutes, but can also be recharged during the work day to have it ready for longer rides home or to run errands.
The Ninebot By Segway ES2 scooter is also outfitted with a 1.5W LED headlight to keep the rider seen at all times when riding after dark, while a bottom LED will point out potential obstacles on the road.
Urban Traffic-Avoiding Scooters
The Ninebot By Segway ES2 Scooter Reaches a Top Speed of 15.5mph
Trend Themes
1. Urban Commuting Scooters - Opportunities abound for designing and marketing simpler, safer, more stylish, and more affordable personal electric transport devices.
2. Last-mile Transport Solutions - The disruption of traditional automotive transportation requires the creation of nimble, low-cost, and innovative solutions that can fill the gap in the market for short-distance commutes.
3. Electric Battery Innovation - Opportunities exist for technological breakthroughs in rechargeable batteries designed for small, portable, and lightweight devices.
Industry Implications
1. Electric Scooter Manufacturer - Manufacturers have an opportunity to create cost-effective and user-friendly electric scooter options that cater to urban commuters in order to capture a growing market.
2. Ride-sharing Companies - Ride-sharing companies have the potential to incorporate more sustainable and economic personal transportation options if they invest in and create partnerships with innovative last-mile transportation companies.
3. Urban Logistics Providers - Companies that specialize in urban logistics can explore new partnership opportunities to offer electric last-mile transportation or delivery services, creating new possibilities for efficient and cost-effective distribution strategies.